Titanium Alloys

About Titanium Alloys

TZM Alloy, Cast Titanium Alloy, Titanium-Clad Copper Components, Nitinol Alloy, Platinum-coated Titanium, Zirconium-Titanium Alloy, Titanium-Aluminium-clad Alloy, FeTi Alloy, Spherical TA15 Powder, Titanium 5553 Master Alloy, Titanium 6242 Alloy, Titanium 6246 Alloy, etc.

Forms: Foil/Band, Sheet/Plate, Tube, Bar, Wire, Disc, Powder, etc.

Review our Titanium Alloys:

TZM Alloy: This alloy is based on molybdenum and is designed to maintain strength and creep resistance at high temperatures (tested up to 1 000 °C). It is applied in aerospace, defence, and high-temperature furnace systems.

Cast Titanium Alloy: This alloy combines low density with resistance to corrosion. It is used in various industrial component fabrications where material weight and corrosion resistance are measured against set standards.

Titanium-Clad Copper Components: These components combine the corrosion resistance of titanium with the electrical conductivity of copper. Their performance has been confirmed for specialised technical applications.

Nitinol Alloy: This alloy exhibits shape memory properties. When heated, it reverts to a predetermined form. It is used in medical devices, robotics and aerospace applications in accordance with standard performance tests.

Platinum-coated Titanium: This material has a platinum coating that alters the electrochemical behaviour of titanium. It is employed in electrodes, catalysts and plating processes, with its characteristics verified by industry benchmarks.

Zirconium-Titanium Alloy: This alloy combines the properties of zirconium and titanium. It is utilised in nuclear reactor components, chemical processing equipment and aerospace parts, following rigorous validation procedures.

Titanium-Aluminium-clad Alloy: This composite material integrates the advantages of both titanium and aluminium. It is applied in aerospace, corrosion-resistant structural elements and marine environments, having met defined material performance criteria.

FeTi Alloy: Comprising iron and titanium, this alloy is used in steel production and aerospace sectors. Its properties are confirmed against established mechanical standards.

Spherical TA15 Powder: This titanium alloy powder is produced with a controlled particle size distribution. It is used in additive manufacturing and powder metallurgy, with specifications that meet industry requirements.

Titanium 5553 Master Alloy, Titanium 6242 Alloy, Titanium 6246 Alloy, etc.: This range of specialised titanium alloys is engineered to meet specific performance requirements in controlled applications, as verified by standard test protocols.

Forms: Foils/Bands, Sheets/Plates, Tubes, Bars, Wires, Discs, Powders, etc.

Why choose our Titanium Alloys?

Diverse Applications: Our titanium alloys are validated for use in aerospace, medical devices, industrial components and advanced materials. Their performance data is available from standardised tests.

Quality Assurance: Each alloy undergoes rigorous quality assessments to ensure the materials meet defined mechanical and physical property standards.

Technical Expertise: Experts in materials science and metallurgy at Stanford Advanced Materials (SAM) provide detailed technical support in alloy selection and application, following standard protocols.

Measured Research and Performance: Our alloys contribute to research at institutions such as Stanford Advanced Materials and support engineering developments by meeting specific performance benchmarks.

Global Distribution: Our products are accepted internationally. The distribution network of Oceania International LLC ensures delivery adheres to agreed schedules and performance requirements.

Applications of Titanium Alloys:

Aerospace and Defence: Titanium alloys are used in aircraft components, engine parts and structural elements. Engineering tests indicate a weight reduction of up to 30% compared with alternative materials.

Medical Devices: These alloys are employed in orthopaedic implants, surgical instruments and dental applications, in compliance with relevant medical standards.